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    • 1. 发明申请
    • FUEL CELL MODULE
    • 燃料电池模块
    • US20080318112A1
    • 2008-12-25
    • US11926105
    • 2007-10-28
    • Cheng WangChing-Po LeeJin-Shu HuangNien-Hui Hsu
    • Cheng WangChing-Po LeeJin-Shu HuangNien-Hui Hsu
    • H01M2/00
    • H01M8/241H01M8/0228H01M8/0247H01M8/0269H01M8/0289H01M8/242H01M8/246
    • A fuel cell module including a membrane electrode assembly (MEA), a pressing plate, an anode collector, an anode flow channel plate, a cathode collector, and a cathode flow channel plate is provided. The MEA has a protrusion, and the pressing plate presses an edge of a cathode of the MEA. The pressing plate has a first opening to expose the protrusion. The anode collector is disposed on an anode of the MEA. The anode flow channel plate is disposed on anode collector. The anode collector is disposed between the anode and the anode flow channel plate. The cathode flow channel plate faces the cathode collector disposed on the cathode and the pressing plate to form a flow channel between an inner surface of the cathode flow channel plate and the cathode collector. The cathode flow channel plate has a concave portion corresponding to the protrusion.
    • 提供一种燃料电池模块,其包括膜电极组件(MEA),压板,阳极集电体,阳极流路板,阴极集电体和阴极流路板。 MEA具有突起,按压板压迫MEA阴极的边缘。 压板具有第一开口以暴露突起。 阳极集电器设置在MEA的阳极上。 阳极流路板设置在阳极集电体上。 阳极集电器设置在阳极和阳极流动通道板之间。 阴极流路板面对设置在阴极上的阴极集电体和压板,在阴极流路板的内表面和阴极集电体之间形成流路。 阴极流路板具有与突起对应的凹部。
    • 2. 发明申请
    • FUEL CELL APPARATUS
    • 燃油电池装置
    • US20080318113A1
    • 2008-12-25
    • US11947788
    • 2007-11-30
    • Cheng WangNien-Hui HsuJin-Shu HuangChing-Po Lee
    • Cheng WangNien-Hui HsuJin-Shu HuangChing-Po Lee
    • H01M8/02
    • H01M8/04089
    • A fuel cell apparatus including a reaction unit for performing a chemical reaction, at least one fan for providing an airflow, and an airflow guiding device is provided. The airflow guiding device is connected to the fan and the reaction unit. The airflow guiding device includes an airflow rectification segment and a first airflow separation segment. The airflow rectification segment is connected to the fan and has one flow channel. The first airflow separation segment is connected to the airflow rectification segment and disposed between the airflow rectification segment and the reaction unit. A number of flow channels inside the first airflow separation segment is N1, where N1 is a positive integer and N1>1.
    • 提供一种燃料电池装置,包括用于进行化学反应的反应单元,至少一个用于提供气流的风扇和气流引导装置。 气流引导装置连接到风扇和反应单元。 气流引导装置包括气流整流段和第一气流分离段。 气流整流段连接风扇,并具有一个流路。 第一气流分离段连接到气流整流段,并设置在气流整流段和反应单元之间。 第一气流分离段内的多个流动通道为N1,其中N1为正整数,N1> 1。
    • 3. 发明申请
    • WATER RECYCLING SYSTEM
    • 水循环系统
    • US20080226962A1
    • 2008-09-18
    • US11868539
    • 2007-10-08
    • Nien-Hui HsuJin-Shu HuangCheng WangChing-Po Lee
    • Nien-Hui HsuJin-Shu HuangCheng WangChing-Po Lee
    • H01M2/00
    • H01M8/04156H01M8/0606
    • A water recycling system for recycling water produced by a fuel cell module is provided. The water recycling system includes a fan, a mixing tank, and a duct. The fan has an exhaust opening and a suction opening adjacent to a cathode of the fuel cell module. The fan is used to vaporize water produced by the fuel cell module into vapor and exhaust the vapor from the exhaust opening. The mixing tank has a fuel inlet and a fuel outlet. A fuel for the fuel cell module is injected into the mixing tank via the fuel inlet, and the fuel outlet is connected to the fuel cell module. The duct has a first end and a second end. The first end is connected to the exhaust opening, and the second end is in contact with the fuel inside the mixing tank.
    • 提供了一种用于回收由燃料电池模块生产的水的水循环系统。 水回收系统包括风扇,混合罐和管道。 风扇具有与燃料电池模块的阴极相邻的排气口和吸入口。 风扇用于将由燃料电池模块产生的水汽化为蒸汽并从排气口排出蒸气。 混合罐具有燃料入口和燃料出口。 用于燃料电池模块的燃料经由燃料入口注入混合罐,并且燃料出口连接到燃料电池模块。 管道具有第一端和第二端。 第一端连接到排气口,第二端与混合罐内的燃料接触。
    • 5. 发明授权
    • Fuel cell module with membrane swelling control structure
    • 具有膜膨胀控制结构的燃料电池模块
    • US08133630B2
    • 2012-03-13
    • US11926105
    • 2007-10-28
    • Cheng WangChing-Po LeeJin-Shu HuangNien-Hui Hsu
    • Cheng WangChing-Po LeeJin-Shu HuangNien-Hui Hsu
    • H01M8/24
    • H01M8/241H01M8/0228H01M8/0247H01M8/0269H01M8/0289H01M8/242H01M8/246
    • A fuel cell module including a membrane electrode assembly (MEA), a pressing plate, an anode collector, an anode flow channel plate, a cathode collector, and a cathode flow channel plate is provided. The MEA has a protrusion, and the pressing plate presses an edge of a cathode of the MEA. The pressing plate has a first opening to expose the protrusion. The anode collector is disposed on an anode of the MEA. The anode flow channel plate is disposed on anode collector. The anode collector is disposed between the anode and the anode flow channel plate. The cathode flow channel plate faces the cathode collector disposed on the cathode and the pressing plate to form a flow channel between an inner surface of the cathode flow channel plate and the cathode collector. The cathode flow channel plate has a concave portion corresponding to the protrusion.
    • 提供一种燃料电池模块,其包括膜电极组件(MEA),压板,阳极集电体,阳极流路板,阴极集电体和阴极流路板。 MEA具有突起,按压板压迫MEA阴极的边缘。 压板具有第一开口以暴露突起。 阳极集电器设置在MEA的阳极上。 阳极流路板设置在阳极集电体上。 阳极集电器设置在阳极和阳极流动通道板之间。 阴极流路板面对设置在阴极上的阴极集电体和压板,在阴极流路板的内表面和阴极集电体之间形成流路。 阴极流路板具有与突起对应的凹部。
    • 6. 发明授权
    • Flow field plate module for fuel cell system
    • 燃料电池系统流场板模块
    • US08101313B2
    • 2012-01-24
    • US11905212
    • 2007-09-28
    • Cheng WangJin-Shu HuangChing-Po LeeNien-Hui Hsu
    • Cheng WangJin-Shu HuangChing-Po LeeNien-Hui Hsu
    • H01M8/24H01M8/04
    • H01M8/0258H01M8/04186
    • A flow field plate module for a fuel cell system includes at least one flow field plate defining a fuel transporting channel thereon. The fuel transporting channel is divided into a middle converging zone having a group of first flow guiding plates arranged therein, and two diverging zones located at two lateral sides of the middle converging zone and each having a group of second flow guiding plates arranged therein. The second flow guiding plates are symmetrically arranged in the two diverging zones and are directed at respective inner end toward a space between two adjacent first flow guiding plates in the middle converging zone to thereby offset from each of the two adjacent first flow guiding plates by a predetermined distance in a fuel flowing direction, so that a fluid path is formed between any two adjacent first and second flow guiding plates.
    • 用于燃料电池系统的流场板模块包括在其上限定燃料输送通道的至少一个流场板。 燃料输送通道被分成具有一组布置在其中的一组第一导流板的中间会聚区域,以及位于中间会聚区域的两个侧面处的两个发散区域,每个具有布置在其中的一组第二导流板。 第二流动引导板对称地布置在两个发散区域中并且在相应的内端处朝向中间会聚区域中的两个相邻的第一导流板之间的空间引导,从而从两个相邻的第一流动引导板中的每一个偏移一个 在燃料流动方向上的预定距离,使得在任何两个相邻的第一和第二导流板之间形成流体路径。
    • 7. 发明申请
    • Fuel cell system
    • 燃料电池系统
    • US20100279189A1
    • 2010-11-04
    • US12003877
    • 2008-01-03
    • Cheng WangJin-Shu HuangChing-Po LeeNien-Hui Hsu
    • Cheng WangJin-Shu HuangChing-Po LeeNien-Hui Hsu
    • H01M8/04
    • H01M8/2475H01M8/04201H01M8/1004
    • A fuel cell system having uniform temperature field, includes at least one fuel cell stack. The fuel cell stack includes a housing, a fuel cell module, and an air guiding device. The housing defines an internal receiving space, and has an air outlet zone and at least two air inlet zones. The fuel cell module is disposed in the receiving space and includes a plurality of membrane electrode assemblies are disposed at intervals along a first sidewall toward a second sidewall on a plane of the receiving space of the housing. Each of the membrane electrode assemblies corresponds to at least one of the air inlet zones. The air guiding device is disposed on of the housing for generating airflows via the air inlet zones into the housing. The airflows flow along cathode surfaces of the membrane electrode assemblies and finally flow out of the housing via the air outlet zone.
    • 具有均匀温度场的燃料电池系统包括至少一个燃料电池堆。 燃料电池堆包括壳体,燃料电池模块和空气引导装置。 壳体限定内部容纳空间,并且具有空气出口区域和至少两个空气入口区域。 燃料电池模块设置在容纳空间中,并且包括多个膜电极组件,其沿着第一侧壁间隔地设置在壳体的容纳空间的平面上的第二侧壁。 每个膜电极组件对应于至少一个空气入口区域。 空气引导装置设置在壳体上,用于经由空气入口区域产生气流进入壳体。 气流沿着膜电极组件的阴极表面流动,并且最终经由空气出口区域流出壳体。
    • 8. 发明申请
    • FUEL CELL SYSTEM
    • 燃油电池系统
    • US20080193814A1
    • 2008-08-14
    • US11836149
    • 2007-08-09
    • Ching-Po LeeJin-Shu HuangNien-Hui HsuCheng Wang
    • Ching-Po LeeJin-Shu HuangNien-Hui HsuCheng Wang
    • H01M8/12
    • H01M8/1011H01M8/04029H01M8/04186H01M8/04201H01M2008/1095Y02E60/523
    • A fuel cell system includes a circulatory device and a fuel cell module. The fuel cell module includes a membrane electrode assembly (MEA), an anode flow field plate and a heat exchange module. The anode flow field plate is disposed at a side of the MEA and has an inlet and an outlet. The heat exchange module includes a fluid-conveying unit and a heat exchange unit. At least a part of the heat exchange unit is disposed inside the fluid-conveying unit to divide the heat exchange unit into a first channel and a second channel. The first channel communicates with the circulatory device and the inlet. The second channel communicates with the circulatory device and the outlet. The circulatory device injects a portion of the liquid reactant into the anode flow field plate through the first channel. The remainder reaction solution flows into the circulatory device through the second channel.
    • 燃料电池系统包括循环装置和燃料电池模块。 燃料电池模块包括膜电极组件(MEA),阳极流场板和热交换模块。 阳极流场板设置在MEA的一侧并具有入口和出口。 热交换模块包括流体输送单元和热交换单元。 热交换单元的至少一部分设置在流体输送单元的内部,以将热交换单元分成第一通道和第二通道。 第一通道与循环装置和入口连通。 第二通道与循环装置和出口通信。 循环装置通过第一通道将一部分液体反应物注入阳极流场板。 剩余的反应溶液通过第二通道流入循环装置。
    • 9. 发明授权
    • Fuel cell system
    • 燃料电池系统
    • US07410715B1
    • 2008-08-12
    • US11836149
    • 2007-08-09
    • Ching-Po LeeJin-Shu HuangNien-Hui HsuCheng Wang
    • Ching-Po LeeJin-Shu HuangNien-Hui HsuCheng Wang
    • H01M8/04
    • H01M8/1011H01M8/04029H01M8/04186H01M8/04201H01M2008/1095Y02E60/523
    • A fuel cell system includes a circulatory device and a fuel cell module. The fuel cell module includes a membrane electrode assembly (MEA), an anode flow field plate and a heat exchange module. The anode flow field plate is disposed at a side of the MEA and has an inlet and an outlet. The heat exchange module includes a fluid-conveying unit and a heat exchange unit. At least a part of the heat exchange unit is disposed inside the fluid-conveying unit to divide the heat exchange unit into a first channel and a second channel. The first channel communicates with the circulatory device and the inlet. The second channel communicates with the circulatory device and the outlet. The circulatory device injects a portion of the liquid reactant into the anode flow field plate through the first channel. The remainder reaction solution flows into the circulatory device through the second channel.
    • 燃料电池系统包括循环装置和燃料电池模块。 燃料电池模块包括膜电极组件(MEA),阳极流场板和热交换模块。 阳极流场板设置在MEA的一侧并具有入口和出口。 热交换模块包括流体输送单元和热交换单元。 热交换单元的至少一部分设置在流体输送单元的内部,以将热交换单元分成第一通道和第二通道。 第一通道与循环装置和入口连通。 第二通道与循环装置和出口通信。 循环装置通过第一通道将一部分液体反应物注入阳极流场板。 剩余的反应溶液通过第二通道流入循环装置。
    • 10. 发明授权
    • Fuel cell
    • 燃料电池
    • US07485388B2
    • 2009-02-03
    • US11829973
    • 2007-07-30
    • Jin-Shu HuangChing-Po LeeNien-Hui HsuCheng Wang
    • Jin-Shu HuangChing-Po LeeNien-Hui HsuCheng Wang
    • H01M8/00H01M8/04H01M2/14
    • H01M8/04089H01M8/04186H01M8/1011Y02E60/523
    • A fuel cell including at least a membrane electrode assembly (MEA), a pipe, a pump and a linkage arrangement is provided. The MEA includes an anode layer, a cathode layer and an electrolyte layer disposed between the anode layer and the cathode layer. The pump is adapted to drive a fluid flowing in the pipe to provide fuel for the anode layer. The linkage arrangement includes a first blade, at least a second blade and a connecting element. The first blade is disposed inside the pipe and located on a flowing path of the fluid, and the fluid is adapted to drive the first blade to rotate. The second blade is disposed outside the pipe, and the connecting element is adapted to connect the first blade and the second blade so that the first blade drives the second blade to rotate to bring air to flow through the cathode layer.
    • 提供至少包括膜电极组件(MEA),管道,泵和连接装置的燃料电池。 MEA包括阳极层,阴极层和设置在阳极层和阴极层之间的电解质层。 泵适于驱动在管中流动的流体以为阳极层提供燃料。 连接装置包括第一叶片,至少第二叶片和连接元件。 第一叶片设置在管内并且位于流体的流动路径上,并且流体适于驱动第一叶片旋转。 第二叶片设置在管的外部,并且连接元件适于连接第一叶片和第二叶片,使得第一叶片驱动第二叶片旋转以使空气流过阴极层。